Effect of skilled reaching training and enriched environment on generation of oligodendrocytes in the adult sensorimotor cortex and corpus callosum

Keiner, Silke; Niv, Fanny; Neumann, Susanne; Steinbach, Tanja; Schmeer, Christian; Hornung, Katrin; Schlenker, Yvonne; Förster, Martin; Witte, Otto W.; Redecker, Christoph

doi:10.1186/s12868-017-0347-2

Cited by 29 publications

(27 citation statements)

References 57 publications

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“…4B, p=0.04) compared to SH controls. This finding is 270 concordant with previous observations of enhanced differentiation following activity-271 dependent stimulation (Cullen et al, 2019;Gibson et al, 2014;Hughes, Orthmann-Murphy, 272 Langseth, & Bergles, 2018;Keiner et al, 2017;Mitew et al, 2018;Xiao et al, 2016). 273…”

supporting

confidence: 86%

“…However, these artificial 28 methods to upregulate neuronal stimulation to promote myelin plasticity may be 29 problematic, as they may not actually reflect physiological levels of stimulation and have 30 recently been shown to promote the progression of tumor growth (Venkataramani et al, 31 2019;Venkatesh et al, 2019). Interestingly, young adult mice (Xiao et al, 2016) and rats 32 (Keiner et al, 2017) that were taught complex motor paradigms exhibited an increase in 33 new OL production, suggesting that OL adaptability extends to adulthood and is 34 physiologically relevant. While these findings are exciting, a complete understanding of the 35 precise changes in cellular dynamics induced by physiologically relevant stimulation and 36 how this ultimately influences myelin in the adult CNS remains unknown.…”

Section: Introduction (4428 Characters)mentioning

confidence: 99%

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Remodeling of pre-existing myelinated axons and oligodendrocyte differentiation is stimulated by environmental enrichment in the young adult brain

Nicholson

Wood

Fletcher

et al. 2020

Preprint

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JX conceived the study; MN performed the experiments and analyzed data; RW, DG and JF assisted the experiments and data analysis; AH contributed to experimental design; JX and SM supervised the study; MN and JX wrote the manuscript. Scholarship and the University of Melbourne STRAPA Scholarship to M.N. Confocal Microscopy was performed at the Biological Optical Microscopy Platform, The University of Melbourne (www.microscopy.unimelb.edu.au). AbstractNeuronal activity influences oligodendrocyte production and myelination during brain development. While it is known that the myelinating process continues across the lifespan, the extent to which neuronal activity influences oligodendrocyte production and myelin acquisition during adulthood is not fully understood. Here, we find that using environmental enrichment (EE) to physiologically upregulate neuronal activity for 6-weeks during young adulthood in C57Bl/6 mice results in increased axon diameter in the corpus callosum, with a corresponding increased thickness of pre-existing myelin sheaths. Furthermore, EE uniformly promotes the differentiation of pre-existing oligodendroglia in both corpus callosum and cerebral somatosensory cortex, while differentially altering new OPC production in these regions. Together, results of this study suggest that neuronal activity induced by EE exerts a pronounced influence on adult myelination, promoting the remodeling of pre-existing myelinated axons and accelerating the differentiation of preexisting oligodendroglia. Importantly, we show that these effects are independent of the addition of new myelin or contributions by newly-generated oligodendroglia. This impact on pre-existing oligodendroglia and pre-existing myelin sheaths is a previously undescribed form of adaptive myelination that potentially contributes to neuronal circuit maturation in the young adult central nervous system.

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confidence: 86%

Section: Introduction (4428 Characters)mentioning

confidence: 99%

Remodeling of pre-existing myelinated axons and oligodendrocyte differentiation is stimulated by environmental enrichment in the young adult brain

Nicholson

Wood

Fletcher

et al. 2020

Preprint

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“…Taken together these results provide the first evidence that MTR is sensitive to longitudinal changes in myelin in white matter. While previous studies have focused on the motor cortex, where a higher number of recently differentiated oligodendrocytes are found after motor learning 42,43 , here, using a whole-brain approach, we detected MTR increases in S1 and S2, and a trend in cerebellum, suggesting increases in myelination in these areas as well.…”

Section: Discussionsupporting

confidence: 41%

Skill acquisition increases myelination and strengthens functional connectivity in the sensorimotor circuit of the adult rat

Sampaio‐Baptista

Weijer

Toorn

et al. 2019

Preprint

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The effects of skill acquisition on whole-brain structure and functional networks have been extensively investigated in humans but have yet to be explored in rodents. Forelimb reaching training in rodents results in well-established focal functional and structural reorganization within the motor cortex (M1) and cerebellum, indicating distributed alterations in both structure and function. However, it is unclear how local alterations in structure and function relate to distributed learning-related changes across motor networks. Here we trained adult rats in skilled reaching and used multimodal whole-brain in vivo MRI to assess both structural and functional plasticity over time.We detected increases in a myelin-related MRI metric in white matter, cortical areas, and to a lesser extent in the cerebellum, paralleled by strengthened functional connectivity between M1 and cerebellum, possibly reflecting a decrease in cerebellum inhibition over M1. Skill learning therefore leads to myelin increases in pathways that connect sensorimotor regions, and in functional connectivity increases between areas involved in motor learning, all of which correlate with performance. These findings closely mirror previous reports of network-level changes following motor learning in humans and underlines the correspondence between human and rodent brain circuits for motor learning, despite important differences in the anatomy of physiology of movement circuits between species.

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“…Myelin plasticity could potentially be achieved by increased differentiation of OPCs, as well as changes in thickness, number and/or length of sheaths (Fields, 2015). Experiments have shown that experiences such as enriched environment and learning can induce such changes (Blumenfeld-Katzir et al, 2011;Sampaio-Baptista et al, 2013;Keiner et al, 2017) that can be indirectly detected with MRI in humans (Scholz et al, 2009;Sagi et al, 2012;Hofstetter et al, 2013).…”

Section: Introductionmentioning

confidence: 99%

Advances in noninvasive myelin imaging

Heath

Hurley

Johansen‐Berg

et al. 2017

Developmental Neurobiology

124

120

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Myelin is important for the normal development and healthy function of the nervous system. Recent developments in MRI acquisition and tissue modeling aim to provide a better characterization and more specific markers for myelin. This allows for specific monitoring of myelination longitudinally and noninvasively in the healthy brain as well as assessment of treatment and intervention efficacy. Here, we offer a nontechnical review of MRI techniques developed to specifically monitor myelin such as magnetization transfer (MT) and myelin water imaging (MWI). We further summarize recent studies that employ these methods to measure myelin in relation to development and aging, learning and experience, and neuropathology and psychiatric disorders. © 2017 The Authors. Developmental Neurobiology Published by Wiley Periodicals, Inc. Develop Neurobiol 78: 136–151, 2018

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Effect of skilled reaching training and enriched environment on generation of oligodendrocytes in the adult sensorimotor cortex and corpus callosum

Cited by 29 publications

References 57 publications

Remodeling of pre-existing myelinated axons and oligodendrocyte differentiation is stimulated by environmental enrichment in the young adult brain

Remodeling of pre-existing myelinated axons and oligodendrocyte differentiation is stimulated by environmental enrichment in the young adult brain

Skill acquisition increases myelination and strengthens functional connectivity in the sensorimotor circuit of the adult rat

Advances in noninvasive myelin imaging

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